Researchers discover molecular approach to promote cancer cell death

Researchers discover molecular approach to promote cancer cell death

Emory Health Sciences

Lung cancer researchers at Winship Cancer Institute of Emory University have discovered a novel strategy to exploit apoptosis, a form of programmed cell death, for the treatment of lung cancer. The protein Bcl-2 is a known target for cancer treatment since it allows cancer cells to evade cell death via apoptosis.

Lead study author Xingming Deng, MD, PhD, a Winship cancer biologist, and his colleagues have discovered an entirely new class of compounds that act by binding to the BH4 domain of Bcl-2 to inhibit its function. The binding of the potential drug results in Bcl-2 being converted from its role of providing survival advantage to cancer cells to that of promoting death of cancer cells. Though this strategy was primarily studied in lung cancer models, it could be widely applicable to other cancer types as well. The findings were published online today (May 21) in the journal Cancer Cell.

"Discovery of the Bcl2 BH4 antagonist as the way to promote cancer cell death may provide a new weapon against lung cancer," says Deng, who is also an associate professor in Emory's Department of Radiation Oncology.

"This potential drug identified by Dr. Deng and our Winship team may accelerate our success against lung and other cancers. We are now testing this molecule further in preparation for future testing among eligible patients," says co-author Walter J. Curran, Jr., MD, Winship's executive director.


This research was supported by the National Cancer Institute of the National Institutes of Health, grant R01CA136534.

Winship Cancer Institute of Emory University is Georgia's only National Cancer Institute-Designated Cancer Center and serves as the coordinating center for cancer research and care throughout Emory University. For over 78 years, Winship has served the citizens of Georgia and the Southeast by working tirelessly to prevent, treat and cure cancer.

To learn more about the Winship Cancer Institute of Emory University, its research, outreach, clinical trials and faculty and staff, visit

Media Contact

Judy Fortin
[email protected]


Suggested Articles

A newfound link between BMAL1, a protein involved in circadian rhythms, and triple-negative breast cancer could point to new treatment strategies.

Combining a DYRK1A inhibitor with popular GLP-1 receptor agonists regenerates insulin-producing beta cells, Mount Sinai scientists found.

Arming a peptide taken from the virus that causes foot-and-mouth disease in cows with the payload tesirine shows promise against pancreatic cancer.